Victor Cid Senior Computer Scientist DIMRC, SIS, NLM

Victor Cid Senior Computer Scientist DIMRC, SIS, NLM

Patient arrives to Walter Reed NMMC Patient transferred to Suburban voice repot made from WRNMMC radio to Suburban cell phone via wireless bridge 2

Any nice day A large winter storm knocks down power, and trigger a large blackout. Terrorists detonate a EMI bomb downtown that severely disrupts telecommunications and power regionally. Hackers disrupt large parts of our utilities infrastructure (electricity, telecoms, water supply, ) A large earthquake hits the East coast

Any nice day

Some potential consequences Surge in demand for hospital services Cell phones and Internet access fail Land line telephone service can be disrupted Staff and communications know-how can become scarce.

The missing staff issue Some studies suggest that 30% or more of hospital staff may not be available to work during a major disaster. Reestablishing communications require specialized expertise a limited resource. How to improve chances of hospitals having communications support during a large disaster? redundant communications support from community.

Emergency Communications Needs of Hospitals Hospitals need to contact other hospitals (e.g., for surge coordination) Emergency management authorities (Mo. Co. Office of Emergency Mgmt. and Homeland Security, law enforcement, F&R, ASPR EOC, Military, etc.) Suppliers External medical support (e.g., tele-consultation.) and increasingly via computer communications.

Wasn t the Internet built for resiliency? Yes, DoD-developed to resist nuclear attacks. Designed with redundancy and automatic reconfiguration. Failures are usually local or regional. Most commonly, failure is in last-mile. Large outages happen: Internet routing glich kicks millions offline ( ) Nov 7, 2011, affected 7 states an international connections. Hackers have been able to knock down portions of the network.

Aren t satellites always available? Yes and no Expensive. Depend on terrestrial infrastructure. Can require specialized equipment and skills. Can be affected by atmospheric, space, and economic weather.

Why is it difficult to remain connected? Services widely dependent on complex infrastructure. Many potential points of failure. Depend on multiple entities for maintenance and control. It s expensive to procure for high communications reliability. Technical support can be difficult to obtain during a disaster.

Another option Digital Amateur Radio technology. Pros: Not critically dependent on local infrastructure. Cheap, cheap, cheap. Readily available. Free technical support available from many hams. Can be used for analog voice too. Cons: Slow, slow, slow (due to legal bandwidth restrictions). Still depends on electricity. Requires expertise and (at least during nonemergencies) a license to operate.

Research Questions Can we leverage ham radio resources to provide last-resort communications to BHEPP? Can we use the ham radio technologies to communicate CRITICAL DATA beyond an Internet/phone communications blackout zone?

During Disasters, Speed is Less Important Communications pathways in rank order of data rate Ham Radio LAN ISP (Internet) Wi-Fi VHF HF 1 Gbps 1 Kbps

Why digital ham radio? Analog voice over radio: A single operator talks to one or more operators. requires a counterpart listening at the other end while communication takes place (real time). Reality is: Multiple EOC staff may need to communicate with multiple counterparts at the same time a single radio transceiver for voice communications becomes a bottleneck. Hospitals need to transfer accurate DATA. Digital services can store messages from multiple parties and retry until delivered automatically ( store & forward technology). Internet email technology over radio can help. +

Development Steps Investigated resources (existing solutions, potential contractors, etc.) and limitations. Collaborated with Radio Amateur community. Designed a potential architecture. Built a prototype. Performed field tests Inter/operability Reliability Usability Improved design and performed more tests Reviewed training needs (skill set). Built a sustainability model.

Some basic problems Amateur radio practitioners are hobbyists. Regulations limit our official use of ham radio spectrum (FCC Part 97 rules). Ham radio resources sometimes overutilized and under-maintained.

MARS to the rescue! We collaborated with the Army version of the Military Auxiliary Radio System (Army-MARS). Builds on amateur radio but is subjected to Military rules. Staff continuously train on emergency communications. Their mandate is to serve the military, the emergency community and the general public during emergencies. Have dedicated set of resources. MARS frequencies not subject to FCC restrictions.

Key Resource: The Winlink 2000 System (WL2K) Developed by hams. Enables free email by radio to/from the Internet. MANY dedicated radio stations relay email between radio users and Internet users. Global Internet You ve got E-mail (It s like very-long distance Wi-Fi )

How does WL2K work? Typical user configuration: PC + email software Antenna Global Internet Redundant email Servers RMS Stations Radio Transceiver + Modem Many access points globally

WL2K Ham HF Access Point radio stations These can be used from hundreds of miles away or more.

WL2K Ham Packet (VHF) stations These can be used from tens of miles away (but faster than HF).

WL2K MARS HF stations These can be used by MARS operators only. Less busy than Ham nodes.

WL2K MARS Packet stations These can be used by MARS operators only. Less busy than Ham nodes.

Our Expanded WL2K Model The three hospitals can transparently share a single radio-email station. Enables HICS role-based email communications. Web-based email interface. No special software needed in user computers other than a web browser. Provides full-featured local email capabilities. It completely frees the operator from having to handle incoming and outgoing messages locally.

Our Expanded WL2K Model Implements bandwidth control strategies for radio email to/from Internet Text-messaging model, separate local and radio-email functions, compression, single destination restriction, traffic-jam bypassing, etc. Implements a private local area network for easy access to email from any Wi-Fi-capable device. Developed highly-automated communications server with simplified management tools for the radio station operator. Can access both, MARS and Ham radio WL2K access point stations.

Our Expanded WL2K Model In other words: Multiple non-technical people can have email service with their own devices. No messenger intermediary. Simplified management.

Two implementation lines Infrastructural: a permanent, alwaysready communications service for all hospitals. (It makes use of a laser-beam-based private network linking the hospitals another BHEPP project) A portable, highly flexible solution that can be deployed where needed to support a local EOC/HCC or a team in the field.

BMERS Architecture (BMERS = BHEPP MARS Email Radio System) WL2K NIH Clinical Center Suburban Hospital BHEPP Laser/Fiber Optics Network Global Internet NIH ECC WRNMMC Internet dead zone ECC = Emergency Communications Center

Base Station Antenna system BHEPP link Operator s management interface Transceiver & modem Antenna control Server

Portable/Field Station Enables a local area network with local and remote email capabilities in the field. WL2K LAN 1 Wi-Fi Internet Dead- Zone Global Internet Wi-Fi Bridge Extended LAN Portable station Remote EOC or other

Portable/Field Station Portable power HF Antenna for Internet E-Mail EOC/HCC Radio operator, station & server Wi-Fi for local E-Mail access

Radio Email User Interface Inbox view Message composing

BMERS Advanced Power System Designed and built custom power system. Provides continuous, clean, reliable power for the portable radio station and peripherals. Designed as an optional power management system for extended operation of portable radio station. Supports multiple power sources and automatically selects best source at any time. Power sources can be hot-swapped.

BMERS Advanced Power System Power System Radio Station

Field Exercises Several exercises in NIH campus: simulated support to NIH backup EOC at NIH Fire station Exercises/demonstrations at Walter Reed NMMC. Used at several CMAX/Capital Shield exercises.

Exercises and Demos

Questions? Victor Cid Senior Computer Scientist DIMRC, SIS, NLM vcid@nlm.nih.gov